public void forceUpdateConfigurationOneOption(string configuration_key, string configuration_value)
{
configurationPlugin.LoadData();
configurationPlugin.SetAttribute(configuration_key, configuration_value);
configurationPlugin.Commit();
configurationPlugin.Close();
}
// TEMP - REMOVE
public void performConfigurationRetrieve()
{
if (cE > 1)
m_log.Error("READING CONFIGURATION COUT: " + cE.ToString());
configurationPlugin = LoadConfigDll(configurationPluginFilename);
configurationOptions.Clear();
if (loadFunction == null)
{
m_log.Error("Load Function for '" + configurationDescription +
"' is null. Refusing to run configuration.");
return;
}
if (resultFunction == null)
{
m_log.Error("Result Function for '" + configurationDescription +
"' is null. Refusing to run configuration.");
return;
}
//m_log.Debug("[CONFIG]: Calling Configuration Load Function...");
loadFunction();
if (configurationOptions.Count <= 0)
{
m_log.Error("[CONFIG]: No configuration options were specified for '" + configurationOptions +
"'. Refusing to continue configuration.");
return;
}
bool useFile = true;
if (configurationPlugin == null)
{
m_log.Error("[CONFIG]: Configuration Plugin NOT LOADED!");
return;
}
if (configurationFilename.Trim() != String.Empty)
{
configurationPlugin.SetFileName(configurationFilename);
try
{
configurationPlugin.LoadData();
useFile = true;
}
catch (XmlException e)
{
m_log.WarnFormat("[CONFIG] Not using {0}: {1}",
configurationFilename,
e.Message.ToString());
//m_log.Error("Error loading " + configurationFilename + ": " + e.ToString());
useFile = false;
}
}
else
{
if (configurationFromXMLNode != null)
{
m_log.Info("Loading from XML Node, will not save to the file");
configurationPlugin.LoadDataFromString(configurationFromXMLNode.OuterXml);
}
m_log.Info("XML Configuration Filename is not valid; will not save to the file.");
useFile = false;
}
foreach (ConfigurationOption configOption in configurationOptions)
{
bool convertSuccess = false;
object return_result = null;
string errorMessage = String.Empty;
bool ignoreNextFromConfig = false;
while (convertSuccess == false)
{
string console_result = String.Empty;
string attribute = null;
if (useFile || configurationFromXMLNode != null)
{
if (!ignoreNextFromConfig)
{
attribute = configurationPlugin.GetAttribute(configOption.configurationKey);
}
else
{
ignoreNextFromConfig = false;
}
}
if (attribute == null)
{
if (configOption.configurationUseDefaultNoPrompt || useConsoleToPromptOnError == false)
{
console_result = configOption.configurationDefault;
}
else
{
if ((configOption.shouldIBeAsked != null &&
configOption.shouldIBeAsked(configOption.configurationKey)) ||
configOption.shouldIBeAsked == null)
{
if (configurationDescription.Trim() != String.Empty)
{
console_result =
MainConsole.Instance.CmdPrompt(
configurationDescription + ": " + configOption.configurationQuestion,
configOption.configurationDefault);
}
else
{
console_result =
MainConsole.Instance.CmdPrompt(configOption.configurationQuestion,
configOption.configurationDefault);
}
}
else
{
//Dont Ask! Just use default
console_result = configOption.configurationDefault;
}
}
}
else
{
console_result = attribute;
}
// if the first character is a "$", assume it's the name
// of an environment variable and substitute with the value of that variable
if (console_result.StartsWith("$"))
console_result = Environment.GetEnvironmentVariable(console_result.Substring(1));
switch (configOption.configurationType)
{
case ConfigurationOption.ConfigurationTypes.TYPE_STRING:
return_result = console_result;
convertSuccess = true;
break;
case ConfigurationOption.ConfigurationTypes.TYPE_STRING_NOT_EMPTY:
if (console_result.Length > 0)
{
return_result = console_result;
convertSuccess = true;
}
errorMessage = "a string that is not empty";
break;
case ConfigurationOption.ConfigurationTypes.TYPE_BOOLEAN:
bool boolResult;
if (Boolean.TryParse(console_result, out boolResult))
{
convertSuccess = true;
return_result = boolResult;
}
errorMessage = "'true' or 'false' (Boolean)";
break;
case ConfigurationOption.ConfigurationTypes.TYPE_BYTE:
byte byteResult;
if (Byte.TryParse(console_result, out byteResult))
{
convertSuccess = true;
return_result = byteResult;
}
errorMessage = "a byte (Byte)";
break;
case ConfigurationOption.ConfigurationTypes.TYPE_CHARACTER:
char charResult;
if (Char.TryParse(console_result, out charResult))
{
convertSuccess = true;
return_result = charResult;
}
errorMessage = "a character (Char)";
break;
case ConfigurationOption.ConfigurationTypes.TYPE_INT16:
short shortResult;
if (Int16.TryParse(console_result, out shortResult))
{
convertSuccess = true;
return_result = shortResult;
}
errorMessage = "a signed 32 bit integer (short)";
break;
case ConfigurationOption.ConfigurationTypes.TYPE_INT32:
int intResult;
if (Int32.TryParse(console_result, out intResult))
{
convertSuccess = true;
return_result = intResult;
}
errorMessage = "a signed 32 bit integer (int)";
break;
case ConfigurationOption.ConfigurationTypes.TYPE_INT64:
long longResult;
if (Int64.TryParse(console_result, out longResult))
{
convertSuccess = true;
return_result = longResult;
}
errorMessage = "a signed 32 bit integer (long)";
break;
case ConfigurationOption.ConfigurationTypes.TYPE_IP_ADDRESS:
IPAddress ipAddressResult;
if (IPAddress.TryParse(console_result, out ipAddressResult))
{
convertSuccess = true;
return_result = ipAddressResult;
}
errorMessage = "an IP Address (IPAddress)";
break;
case ConfigurationOption.ConfigurationTypes.TYPE_UUID:
UUID uuidResult;
if (UUID.TryParse(console_result, out uuidResult))
{
convertSuccess = true;
return_result = uuidResult;
}
errorMessage = "a UUID (UUID)";
break;
case ConfigurationOption.ConfigurationTypes.TYPE_UUID_NULL_FREE:
UUID uuidResult2;
if (UUID.TryParse(console_result, out uuidResult2))
{
convertSuccess = true;
if (uuidResult2 == UUID.Zero)
uuidResult2 = UUID.Random();
return_result = uuidResult2;
}
errorMessage = "a non-null UUID (UUID)";
break;
case ConfigurationOption.ConfigurationTypes.TYPE_Vector3:
Vector3 vectorResult;
if (Vector3.TryParse(console_result, out vectorResult))
{
convertSuccess = true;
return_result = vectorResult;
}
errorMessage = "a vector (Vector3)";
break;
case ConfigurationOption.ConfigurationTypes.TYPE_UINT16:
ushort ushortResult;
if (UInt16.TryParse(console_result, out ushortResult))
{
convertSuccess = true;
return_result = ushortResult;
}
errorMessage = "an unsigned 16 bit integer (ushort)";
break;
case ConfigurationOption.ConfigurationTypes.TYPE_UINT32:
uint uintResult;
if (UInt32.TryParse(console_result, out uintResult))
{
convertSuccess = true;
return_result = uintResult;
}
errorMessage = "an unsigned 32 bit integer (uint)";
break;
case ConfigurationOption.ConfigurationTypes.TYPE_UINT64:
ulong ulongResult;
if (UInt64.TryParse(console_result, out ulongResult))
{
convertSuccess = true;
return_result = ulongResult;
}
errorMessage = "an unsigned 64 bit integer (ulong)";
break;
case ConfigurationOption.ConfigurationTypes.TYPE_FLOAT:
float floatResult;
if (
float.TryParse(console_result, NumberStyles.AllowDecimalPoint | NumberStyles.AllowLeadingSign, Culture.NumberFormatInfo,
out floatResult))
{
convertSuccess = true;
return_result = floatResult;
}
errorMessage = "a single-precision floating point number (float)";
break;
case ConfigurationOption.ConfigurationTypes.TYPE_DOUBLE:
double doubleResult;
if (
Double.TryParse(console_result, NumberStyles.AllowDecimalPoint | NumberStyles.AllowLeadingSign, Culture.NumberFormatInfo,
out doubleResult))
{
convertSuccess = true;
return_result = doubleResult;
}
errorMessage = "an double-precision floating point number (double)";
break;
}
if (convertSuccess)
{
if (useFile)
{
configurationPlugin.SetAttribute(configOption.configurationKey, console_result);
}
if (!resultFunction(configOption.configurationKey, return_result))
{
m_log.Info(
"The handler for the last configuration option denied that input, please try again.");
convertSuccess = false;
ignoreNextFromConfig = true;
}
}
else
{
if (configOption.configurationUseDefaultNoPrompt)
{
m_log.Error(string.Format(
"[CONFIG]: [{3}]:[{1}] is not valid default for parameter [{0}].\nThe configuration result must be parsable to {2}.\n",
configOption.configurationKey, console_result, errorMessage,
configurationFilename));
convertSuccess = true;
}
else
{
m_log.Warn(string.Format(
"[CONFIG]: [{3}]:[{1}] is not a valid value [{0}].\nThe configuration result must be parsable to {2}.\n",
configOption.configurationKey, console_result, errorMessage,
configurationFilename));
ignoreNextFromConfig = true;
}
}
}
}
if (useFile)
{
configurationPlugin.Commit();
configurationPlugin.Close();
}
}
// TEMP - REMOVE
public void performConfigurationRetrieve()
{
if (cE > 1)
{
m_log.Error("[CONFIG]: READING CONFIGURATION COUT: " + cE.ToString());
}
configurationPlugin = LoadConfigDll(configurationPluginFilename);
configurationOptions.Clear();
if (loadFunction == null)
{
m_log.Error("[CONFIG]: Load Function for '" + configurationDescription +
"' is null. Refusing to run configuration.");
return;
}
if (resultFunction == null)
{
m_log.Error("[CONFIG]: Result Function for '" + configurationDescription +
"' is null. Refusing to run configuration.");
return;
}
//m_log.Debug("[CONFIG]: Calling Configuration Load Function...");
loadFunction();
if (configurationOptions.Count <= 0)
{
m_log.Error("[CONFIG]: No configuration options were specified for '" + configurationOptions +
"'. Refusing to continue configuration.");
return;
}
bool useFile = true;
if (configurationPlugin == null)
{
m_log.Error("[CONFIG]: Configuration Plugin NOT LOADED!");
return;
}
if (!String.IsNullOrWhiteSpace(configurationFilename))
{
configurationPlugin.SetFileName(configurationFilename);
try
{
configurationPlugin.LoadData();
useFile = true;
}
catch (XmlException e)
{
m_log.WarnFormat("[CONFIG]: Not using {0}: {1}",
configurationFilename,
e.Message.ToString());
//m_log.Error("Error loading " + configurationFilename + ": " + e.ToString());
useFile = false;
}
}
else
{
if (configurationFromXMLNode != null)
{
m_log.Info("[CONFIG]: Loading from XML Node, will not save to the file");
configurationPlugin.LoadDataFromString(configurationFromXMLNode.OuterXml);
}
m_log.Info("[CONFIG]: XML Configuration Filename is not valid; will not save to the file.");
useFile = false;
}
foreach (ConfigurationOption configOption in configurationOptions)
{
bool convertSuccess = false;
object return_result = null;
string errorMessage = String.Empty;
bool ignoreNextFromConfig = false;
while (convertSuccess == false)
{
string console_result = String.Empty;
string attribute = null;
if (useFile || configurationFromXMLNode != null)
{
if (!ignoreNextFromConfig)
{
attribute = configurationPlugin.GetAttribute(configOption.configurationKey);
}
else
{
ignoreNextFromConfig = false;
}
}
if (attribute == null)
{
if (configOption.configurationUseDefaultNoPrompt || useConsoleToPromptOnError == false)
{
console_result = configOption.configurationDefault;
}
else
{
if ((configOption.shouldIBeAsked != null &&
configOption.shouldIBeAsked(configOption.configurationKey)) ||
configOption.shouldIBeAsked == null)
{
if (!String.IsNullOrWhiteSpace(configurationDescription))
{
console_result =
MainConsole.Instance.CmdPrompt(
configurationDescription + ": " + configOption.configurationQuestion,
configOption.configurationDefault);
}
else
{
console_result =
MainConsole.Instance.CmdPrompt(configOption.configurationQuestion,
configOption.configurationDefault);
}
}
else
{
//Dont Ask! Just use default
console_result = configOption.configurationDefault;
}
}
}
else
{
console_result = attribute;
}
// If the first character of a multicharacter string is a "$", assume it's the name of an environment variable and substitute with the value of that variable.
if (console_result.StartsWith("$", StringComparison.InvariantCulture) && console_result.Length > 1)
{
// Using a second $ to be an escape character was experimented with, but that would require modifying the write process to re-apply the escape character. Over-all escapes seem too fragile, and the below code handles it cleanly. If the admin wants to use a value that collides with an environment variable, then the admin can make sure to unset it first.
var env_var_key = console_result.Substring(1);
var env_var_value = Environment.GetEnvironmentVariable(env_var_key);
if (env_var_value != null)
{
// Log the use of an environment variable just in case someone didn't expect it.
m_log.Info($"[CONFIG]: Parameter [{configOption.configurationKey}] started with '$'. Value replaced with environment variable '{env_var_key}' value '{env_var_value}'.");
console_result = env_var_value;
}
else
{
// Unless there is no such variable, in which case just move on with the original and let the user know that happened.
m_log.Warn($"[CONFIG]: Parameter [{configOption.configurationKey}] started with '$', however there was no environment variable found with the name '{env_var_key}'.");
}
}
switch (configOption.configurationType)
{
case ConfigurationOption.ConfigurationTypes.TYPE_STRING:
return_result = console_result;
convertSuccess = true;
break;
case ConfigurationOption.ConfigurationTypes.TYPE_STRING_NOT_EMPTY:
if (!String.IsNullOrEmpty(console_result))
{
return_result = console_result;
convertSuccess = true;
}
errorMessage = "a string that is not empty";
break;
case ConfigurationOption.ConfigurationTypes.TYPE_BOOLEAN:
bool boolResult;
if (Boolean.TryParse(console_result, out boolResult))
{
convertSuccess = true;
return_result = boolResult;
}
errorMessage = "'true' or 'false' (Boolean)";
break;
case ConfigurationOption.ConfigurationTypes.TYPE_BYTE:
byte byteResult;
if (Byte.TryParse(console_result, out byteResult))
{
convertSuccess = true;
return_result = byteResult;
}
errorMessage = "a byte (Byte)";
break;
case ConfigurationOption.ConfigurationTypes.TYPE_CHARACTER:
char charResult;
if (Char.TryParse(console_result, out charResult))
{
convertSuccess = true;
return_result = charResult;
}
errorMessage = "a character (Char)";
break;
case ConfigurationOption.ConfigurationTypes.TYPE_INT16:
short shortResult;
if (Int16.TryParse(console_result, out shortResult))
{
convertSuccess = true;
return_result = shortResult;
}
errorMessage = "a signed 32 bit integer (short)";
break;
case ConfigurationOption.ConfigurationTypes.TYPE_INT32:
int intResult;
if (Int32.TryParse(console_result, out intResult))
{
convertSuccess = true;
return_result = intResult;
}
errorMessage = "a signed 32 bit integer (int)";
break;
case ConfigurationOption.ConfigurationTypes.TYPE_INT64:
long longResult;
if (Int64.TryParse(console_result, out longResult))
{
convertSuccess = true;
return_result = longResult;
}
errorMessage = "a signed 32 bit integer (long)";
break;
case ConfigurationOption.ConfigurationTypes.TYPE_IP_ADDRESS:
IPAddress ipAddressResult;
if (IPAddress.TryParse(console_result, out ipAddressResult))
{
convertSuccess = true;
return_result = ipAddressResult;
}
errorMessage = "an IP Address (IPAddress)";
break;
case ConfigurationOption.ConfigurationTypes.TYPE_UUID:
UUID uuidResult;
if (UUID.TryParse(console_result, out uuidResult))
{
convertSuccess = true;
return_result = uuidResult;
}
errorMessage = "a UUID (UUID)";
break;
case ConfigurationOption.ConfigurationTypes.TYPE_UUID_NULL_FREE:
UUID uuidResult2;
if (UUID.TryParse(console_result, out uuidResult2))
{
convertSuccess = true;
if (uuidResult2 == UUID.Zero)
{
uuidResult2 = UUID.Random();
}
return_result = uuidResult2;
}
errorMessage = "a non-null UUID (UUID)";
break;
case ConfigurationOption.ConfigurationTypes.TYPE_Vector3:
Vector3 vectorResult;
if (Vector3.TryParse(console_result, out vectorResult))
{
convertSuccess = true;
return_result = vectorResult;
}
errorMessage = "a vector (Vector3)";
break;
case ConfigurationOption.ConfigurationTypes.TYPE_UINT16:
ushort ushortResult;
if (UInt16.TryParse(console_result, out ushortResult))
{
convertSuccess = true;
return_result = ushortResult;
}
errorMessage = "an unsigned 16 bit integer (ushort)";
break;
case ConfigurationOption.ConfigurationTypes.TYPE_UINT32:
uint uintResult;
if (UInt32.TryParse(console_result, out uintResult))
{
convertSuccess = true;
return_result = uintResult;
}
errorMessage = "an unsigned 32 bit integer (uint)";
break;
case ConfigurationOption.ConfigurationTypes.TYPE_UINT64:
ulong ulongResult;
if (UInt64.TryParse(console_result, out ulongResult))
{
convertSuccess = true;
return_result = ulongResult;
}
errorMessage = "an unsigned 64 bit integer (ulong)";
break;
case ConfigurationOption.ConfigurationTypes.TYPE_FLOAT:
float floatResult;
if (
float.TryParse(console_result, NumberStyles.AllowDecimalPoint | NumberStyles.AllowLeadingSign, Culture.NumberFormatInfo,
out floatResult))
{
convertSuccess = true;
return_result = floatResult;
}
errorMessage = "a single-precision floating point number (float)";
break;
case ConfigurationOption.ConfigurationTypes.TYPE_DOUBLE:
double doubleResult;
if (
Double.TryParse(console_result, NumberStyles.AllowDecimalPoint | NumberStyles.AllowLeadingSign, Culture.NumberFormatInfo,
out doubleResult))
{
convertSuccess = true;
return_result = doubleResult;
}
errorMessage = "an double-precision floating point number (double)";
break;
}
if (convertSuccess)
{
if (useFile)
{
configurationPlugin.SetAttribute(configOption.configurationKey, console_result);
}
if (!resultFunction(configOption.configurationKey, return_result))
{
m_log.Info(
"[CONFIG]: The handler for the last configuration option denied that input, please try again.");
convertSuccess = false;
ignoreNextFromConfig = true;
}
}
else
{
if (configOption.configurationUseDefaultNoPrompt)
{
m_log.Error(string.Format(
"[CONFIG]: [{3}]:[{1}] is not valid default for parameter [{0}].\nThe configuration result must be parsable to {2}.\n",
configOption.configurationKey, console_result, errorMessage,
configurationFilename));
convertSuccess = true;
}
else
{
m_log.Warn(string.Format(
"[CONFIG]: [{3}]:[{1}] is not a valid value [{0}].\nThe configuration result must be parsable to {2}.\n",
configOption.configurationKey, console_result, errorMessage,
configurationFilename));
ignoreNextFromConfig = true;
}
}
}
}
if (useFile)
{
configurationPlugin.Commit();
configurationPlugin.Close();
}
}
// TEMP - REMOVE
public void performConfigurationRetrieve()
{
if (cE > 1)
{
m_log.Error("READING CONFIGURATION COUT: " + cE.ToString());
}
configurationPlugin = LoadConfigDll(configurationPluginFilename);
configurationOptions.Clear();
if (loadFunction == null)
{
m_log.Error("Load Function for '" + configurationDescription +
"' is null. Refusing to run configuration.");
return;
}
if (resultFunction == null)
{
m_log.Error("Result Function for '" + configurationDescription +
"' is null. Refusing to run configuration.");
return;
}
//m_log.Debug("[CONFIG]: Calling Configuration Load Function...");
loadFunction();
if (configurationOptions.Count <= 0)
{
m_log.Error("[CONFIG]: No configuration options were specified for '" + configurationOptions +
"'. Refusing to continue configuration.");
return;
}
bool useFile = true;
if (configurationPlugin == null)
{
m_log.Error("[CONFIG]: Configuration Plugin NOT LOADED!");
return;
}
if (configurationFilename.Trim() != String.Empty)
{
configurationPlugin.SetFileName(configurationFilename);
try
{
configurationPlugin.LoadData();
useFile = true;
}
catch (XmlException e)
{
m_log.WarnFormat("[CONFIG] Not using {0}: {1}",
configurationFilename,
e.Message.ToString());
//m_log.Error("Error loading " + configurationFilename + ": " + e.ToString());
useFile = false;
}
}
else
{
if (configurationFromXMLNode != null)
{
m_log.Info("Loading from XML Node, will not save to the file");
configurationPlugin.LoadDataFromString(configurationFromXMLNode.OuterXml);
}
m_log.Info("XML Configuration Filename is not valid; will not save to the file.");
useFile = false;
}
foreach (ConfigurationOption configOption in configurationOptions)
{
bool convertSuccess = false;
object return_result = null;
string errorMessage = String.Empty;
bool ignoreNextFromConfig = false;
while (convertSuccess == false)
{
string console_result = String.Empty;
string attribute = null;
if (useFile || configurationFromXMLNode != null)
{
if (!ignoreNextFromConfig)
{
attribute = configurationPlugin.GetAttribute(configOption.configurationKey);
}
else
{
ignoreNextFromConfig = false;
}
}
if (attribute == null)
{
if (configOption.configurationUseDefaultNoPrompt || useConsoleToPromptOnError == false)
{
console_result = configOption.configurationDefault;
}
else
{
if ((configOption.shouldIBeAsked != null &&
configOption.shouldIBeAsked(configOption.configurationKey)) ||
configOption.shouldIBeAsked == null)
{
if (configurationDescription.Trim() != String.Empty)
{
console_result =
MainConsole.Instance.Prompt(
configurationDescription + ": " + configOption.configurationQuestion,
configOption.configurationDefault);
}
else
{
console_result =
MainConsole.Instance.Prompt(configOption.configurationQuestion,
configOption.configurationDefault);
}
}
else
{
//Dont Ask! Just use default
console_result = configOption.configurationDefault;
}
}
}
else
{
console_result = attribute;
}
// if the first character is a "$", assume it's the name
// of an environment variable and substitute with the value of that variable
if (console_result.StartsWith("$"))
{
console_result = Environment.GetEnvironmentVariable(console_result.Substring(1));
}
switch (configOption.configurationType)
{
case ConfigurationOption.ConfigurationTypes.TYPE_STRING:
return_result = console_result;
convertSuccess = true;
break;
case ConfigurationOption.ConfigurationTypes.TYPE_STRING_NOT_EMPTY:
if (console_result.Length > 0)
{
return_result = console_result;
convertSuccess = true;
}
errorMessage = "a string that is not empty";
break;
case ConfigurationOption.ConfigurationTypes.TYPE_BOOLEAN:
bool boolResult;
if (Boolean.TryParse(console_result, out boolResult))
{
convertSuccess = true;
return_result = boolResult;
}
errorMessage = "'true' or 'false' (Boolean)";
break;
case ConfigurationOption.ConfigurationTypes.TYPE_BYTE:
byte byteResult;
if (Byte.TryParse(console_result, out byteResult))
{
convertSuccess = true;
return_result = byteResult;
}
errorMessage = "a byte (Byte)";
break;
case ConfigurationOption.ConfigurationTypes.TYPE_CHARACTER:
char charResult;
if (Char.TryParse(console_result, out charResult))
{
convertSuccess = true;
return_result = charResult;
}
errorMessage = "a character (Char)";
break;
case ConfigurationOption.ConfigurationTypes.TYPE_INT16:
short shortResult;
if (Int16.TryParse(console_result, out shortResult))
{
convertSuccess = true;
return_result = shortResult;
}
errorMessage = "a signed 32 bit integer (short)";
break;
case ConfigurationOption.ConfigurationTypes.TYPE_INT32:
int intResult;
if (Int32.TryParse(console_result, out intResult))
{
convertSuccess = true;
return_result = intResult;
}
errorMessage = "a signed 32 bit integer (int)";
break;
case ConfigurationOption.ConfigurationTypes.TYPE_INT64:
long longResult;
if (Int64.TryParse(console_result, out longResult))
{
convertSuccess = true;
return_result = longResult;
}
errorMessage = "a signed 32 bit integer (long)";
break;
case ConfigurationOption.ConfigurationTypes.TYPE_IP_ADDRESS:
IPAddress ipAddressResult;
if (IPAddress.TryParse(console_result, out ipAddressResult))
{
convertSuccess = true;
return_result = ipAddressResult;
}
errorMessage = "an IP Address (IPAddress)";
break;
case ConfigurationOption.ConfigurationTypes.TYPE_UUID:
UUID uuidResult;
if (UUID.TryParse(console_result, out uuidResult))
{
convertSuccess = true;
return_result = uuidResult;
}
errorMessage = "a UUID (UUID)";
break;
case ConfigurationOption.ConfigurationTypes.TYPE_UUID_NULL_FREE:
UUID uuidResult2;
if (UUID.TryParse(console_result, out uuidResult2))
{
convertSuccess = true;
if (uuidResult2 == UUID.Zero)
{
uuidResult2 = UUID.Random();
}
return_result = uuidResult2;
}
errorMessage = "a non-null UUID (UUID)";
break;
case ConfigurationOption.ConfigurationTypes.TYPE_Vector3:
Vector3 vectorResult;
if (Vector3.TryParse(console_result, out vectorResult))
{
convertSuccess = true;
return_result = vectorResult;
}
errorMessage = "a vector (Vector3)";
break;
case ConfigurationOption.ConfigurationTypes.TYPE_UINT16:
ushort ushortResult;
if (UInt16.TryParse(console_result, out ushortResult))
{
convertSuccess = true;
return_result = ushortResult;
}
errorMessage = "an unsigned 16 bit integer (ushort)";
break;
case ConfigurationOption.ConfigurationTypes.TYPE_UINT32:
uint uintResult;
if (UInt32.TryParse(console_result, out uintResult))
{
convertSuccess = true;
return_result = uintResult;
}
errorMessage = "an unsigned 32 bit integer (uint)";
break;
case ConfigurationOption.ConfigurationTypes.TYPE_UINT64:
ulong ulongResult;
if (UInt64.TryParse(console_result, out ulongResult))
{
convertSuccess = true;
return_result = ulongResult;
}
errorMessage = "an unsigned 64 bit integer (ulong)";
break;
case ConfigurationOption.ConfigurationTypes.TYPE_FLOAT:
float floatResult;
if (
float.TryParse(console_result, NumberStyles.AllowDecimalPoint | NumberStyles.AllowLeadingSign, Culture.NumberFormatInfo,
out floatResult))
{
convertSuccess = true;
return_result = floatResult;
}
errorMessage = "a single-precision floating point number (float)";
break;
case ConfigurationOption.ConfigurationTypes.TYPE_DOUBLE:
double doubleResult;
if (
Double.TryParse(console_result, NumberStyles.AllowDecimalPoint | NumberStyles.AllowLeadingSign, Culture.NumberFormatInfo,
out doubleResult))
{
convertSuccess = true;
return_result = doubleResult;
}
errorMessage = "an double-precision floating point number (double)";
break;
}
if (convertSuccess)
{
if (useFile)
{
configurationPlugin.SetAttribute(configOption.configurationKey, console_result);
}
if (!resultFunction(configOption.configurationKey, return_result))
{
m_log.Info(
"The handler for the last configuration option denied that input, please try again.");
convertSuccess = false;
ignoreNextFromConfig = true;
}
}
else
{
if (configOption.configurationUseDefaultNoPrompt)
{
m_log.Error(string.Format(
"[CONFIG]: [{3}]:[{1}] is not valid default for parameter [{0}].\nThe configuration result must be parsable to {2}.\n",
configOption.configurationKey, console_result, errorMessage,
configurationFilename));
convertSuccess = true;
}
else
{
m_log.Warn(string.Format(
"[CONFIG]: [{3}]:[{1}] is not a valid value [{0}].\nThe configuration result must be parsable to {2}.\n",
configOption.configurationKey, console_result, errorMessage,
configurationFilename));
ignoreNextFromConfig = true;
}
}
}
}
if (useFile)
{
configurationPlugin.Commit();
configurationPlugin.Close();
}
}
public void InitConfig(bool sandboxMode, IGenericConfig configData)
{
this.isSandbox = sandboxMode;
try
{
// Sim UUID
string attri = "";
attri = configData.GetAttribute("SimUUID");
if (attri == "")
{
this.SimUUID = LLUUID.Random();
configData.SetAttribute("SimUUID", this.SimUUID.ToString());
}
else
{
this.SimUUID = new LLUUID(attri);
}
// Sim name
attri = "";
attri = configData.GetAttribute("SimName");
if (attri == "")
{
this.RegionName = OpenSim.Framework.Console.MainConsole.Instance.CmdPrompt("Name", "OpenSim test");
configData.SetAttribute("SimName", this.RegionName);
}
else
{
this.RegionName = attri;
}
// Sim/Grid location X
attri = "";
attri = configData.GetAttribute("SimLocationX");
if (attri == "")
{
string location = OpenSim.Framework.Console.MainConsole.Instance.CmdPrompt("Grid Location X", "997");
configData.SetAttribute("SimLocationX", location);
this.RegionLocX = (uint)Convert.ToUInt32(location);
}
else
{
this.RegionLocX = (uint)Convert.ToUInt32(attri);
}
// Sim/Grid location Y
attri = "";
attri = configData.GetAttribute("SimLocationY");
if (attri == "")
{
string location = OpenSim.Framework.Console.MainConsole.Instance.CmdPrompt("Grid Location Y", "996");
configData.SetAttribute("SimLocationY", location);
this.RegionLocY = (uint)Convert.ToUInt32(location);
}
else
{
this.RegionLocY = (uint)Convert.ToUInt32(attri);
}
// Local storage datastore
attri = "";
attri = configData.GetAttribute("Datastore");
if (attri == "")
{
string datastore = OpenSim.Framework.Console.MainConsole.Instance.CmdPrompt("Filename for local storage", "localworld.yap");
configData.SetAttribute("Datastore", datastore);
this.DataStore = datastore;
}
else
{
this.DataStore = attri;
}
//Sim Listen Port
attri = "";
attri = configData.GetAttribute("SimListenPort");
if (attri == "")
{
string port = OpenSim.Framework.Console.MainConsole.Instance.CmdPrompt("UDP port for client connections", "9000");
configData.SetAttribute("SimListenPort", port);
this.IPListenPort = Convert.ToInt32(port);
}
else
{
this.IPListenPort = Convert.ToInt32(attri);
}
//Sim Listen Address
attri = "";
attri = configData.GetAttribute("SimListenAddress");
if (attri == "")
{
this.IPListenAddr = OpenSim.Framework.Console.MainConsole.Instance.CmdPrompt("IP Address to listen on for client connections", "127.0.0.1");
configData.SetAttribute("SimListenAddress", this.IPListenAddr);
}
else
{
this.IPListenAddr = attri;
}
this.RegionHandle = Util.UIntsToLong((RegionLocX * 256), (RegionLocY * 256));
configData.Commit();
}
catch (Exception e)
{
OpenSim.Framework.Console.MainConsole.Instance.WriteLine("Config.cs:InitConfig() - Exception occured");
OpenSim.Framework.Console.MainConsole.Instance.WriteLine(e.ToString());
}
OpenSim.Framework.Console.MainConsole.Instance.WriteLine("Sim settings loaded:");
OpenSim.Framework.Console.MainConsole.Instance.WriteLine("UUID: " + this.SimUUID.ToStringHyphenated());
OpenSim.Framework.Console.MainConsole.Instance.WriteLine("Name: " + this.RegionName);
OpenSim.Framework.Console.MainConsole.Instance.WriteLine("Region Location: [" + this.RegionLocX.ToString() + "," + this.RegionLocY + "]");
OpenSim.Framework.Console.MainConsole.Instance.WriteLine("Region Handle: " + this.RegionHandle.ToString());
OpenSim.Framework.Console.MainConsole.Instance.WriteLine("Listening on IP: " + this.IPListenAddr + ":" + this.IPListenPort);
}
public void InitConfig(bool sandboxMode, IGenericConfig configData)
{
this.isSandbox = sandboxMode;
try
{
// Sim UUID
string attri = "";
attri = configData.GetAttribute("SimUUID");
if (attri == "")
{
this.SimUUID = LLUUID.Random();
configData.SetAttribute("SimUUID", this.SimUUID.ToString());
}
else
{
this.SimUUID = new LLUUID(attri);
}
// Sim name
attri = "";
attri = configData.GetAttribute("SimName");
if (attri == "")
{
this.RegionName = OpenSim.Framework.Console.MainConsole.Instance.CmdPrompt("Name", "OpenSim test");
configData.SetAttribute("SimName", this.RegionName);
}
else
{
this.RegionName = attri;
}
// Sim/Grid location X
attri = "";
attri = configData.GetAttribute("SimLocationX");
if (attri == "")
{
string location = OpenSim.Framework.Console.MainConsole.Instance.CmdPrompt("Grid Location X", "997");
configData.SetAttribute("SimLocationX", location);
this.RegionLocX = (uint)Convert.ToUInt32(location);
}
else
{
this.RegionLocX = (uint)Convert.ToUInt32(attri);
}
// Sim/Grid location Y
attri = "";
attri = configData.GetAttribute("SimLocationY");
if (attri == "")
{
string location = OpenSim.Framework.Console.MainConsole.Instance.CmdPrompt("Grid Location Y", "996");
configData.SetAttribute("SimLocationY", location);
this.RegionLocY = (uint)Convert.ToUInt32(location);
}
else
{
this.RegionLocY = (uint)Convert.ToUInt32(attri);
}
// Local storage datastore
attri = "";
attri = configData.GetAttribute("Datastore");
if (attri == "")
{
string datastore = OpenSim.Framework.Console.MainConsole.Instance.CmdPrompt("Filename for local storage", "localworld.yap");
configData.SetAttribute("Datastore", datastore);
this.DataStore = datastore;
}
else
{
this.DataStore = attri;
}
//Sim Listen Port
attri = "";
attri = configData.GetAttribute("SimListenPort");
if (attri == "")
{
string port = OpenSim.Framework.Console.MainConsole.Instance.CmdPrompt("UDP port for client connections", "9000");
configData.SetAttribute("SimListenPort", port);
this.IPListenPort = Convert.ToInt32(port);
}
else
{
this.IPListenPort = Convert.ToInt32(attri);
}
//Sim Listen Address
attri = "";
attri = configData.GetAttribute("SimListenAddress");
if (attri == "")
{
this.IPListenAddr = OpenSim.Framework.Console.MainConsole.Instance.CmdPrompt("IP Address to listen on for client connections", "127.0.0.1");
configData.SetAttribute("SimListenAddress", this.IPListenAddr);
}
else
{
this.IPListenAddr = attri;
}
this.RegionHandle = Util.UIntsToLong((RegionLocX * 256), (RegionLocY * 256));
configData.Commit();
}
catch (Exception e)
{
OpenSim.Framework.Console.MainConsole.Instance.WriteLine("Config.cs:InitConfig() - Exception occured");
OpenSim.Framework.Console.MainConsole.Instance.WriteLine(e.ToString());
}
OpenSim.Framework.Console.MainConsole.Instance.WriteLine("Sim settings loaded:");
OpenSim.Framework.Console.MainConsole.Instance.WriteLine("UUID: " + this.SimUUID.ToStringHyphenated());
OpenSim.Framework.Console.MainConsole.Instance.WriteLine("Name: " + this.RegionName);
OpenSim.Framework.Console.MainConsole.Instance.WriteLine("Region Location: [" + this.RegionLocX.ToString() + "," + this.RegionLocY + "]");
OpenSim.Framework.Console.MainConsole.Instance.WriteLine("Region Handle: " + this.RegionHandle.ToString());
OpenSim.Framework.Console.MainConsole.Instance.WriteLine("Listening on IP: " + this.IPListenAddr + ":" + this.IPListenPort);
}